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syscred_duplicate / syscred /liar_dataset.py

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fix: Add missing 'Any' import in liar_dataset.py

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	# -- coding: utf-8 --
	"""
	LIAR Dataset Module - SysCRED
	==============================
	Loader for the LIAR benchmark dataset (Wang, 2017).
	Standard benchmark for fake news detection with 12,800+ political statements.

	Dataset: https://www.cs.ucsb.edu/~william/data/liar_dataset.zip
	Paper: "Liar, Liar Pants on Fire" (ACL 2017)

	(c) Dominique S. Loyer - PhD Thesis Prototype
	"""

	import os
	import csv
	from pathlib import Path
	from typing import List, Dict, Optional, Tuple, Any
	from dataclasses import dataclass, field
	from enum import Enum


	class LiarLabel(Enum):
	"""Six-way truthfulness labels from PolitiFact."""
	PANTS_FIRE = 0
	FALSE = 1
	BARELY_TRUE = 2
	HALF_TRUE = 3
	MOSTLY_TRUE = 4
	TRUE = 5

	@classmethod
	def from_string(cls, label: str) -> 'LiarLabel':
	"""Convert string label to enum."""
	mapping = {
	'pants-fire': cls.PANTS_FIRE,
	'false': cls.FALSE,
	'barely-true': cls.BARELY_TRUE,
	'half-true': cls.HALF_TRUE,
	'mostly-true': cls.MOSTLY_TRUE,
	'true': cls.TRUE
	}
	return mapping.get(label.lower().strip(), cls.HALF_TRUE)

	def to_binary(self) -> str:
	"""Convert to binary label (Fake/Real)."""
	if self.value <= 2: # pants-fire, false, barely-true
	return "Fake"
	else: # half-true, mostly-true, true
	return "Real"

	def to_ternary(self) -> str:
	"""Convert to ternary label (False/Mixed/True)."""
	if self.value <= 1: # pants-fire, false
	return "False"
	elif self.value <= 3: # barely-true, half-true
	return "Mixed"
	else: # mostly-true, true
	return "True"


	@dataclass
	class LiarStatement:
	"""A single statement from the LIAR dataset."""
	id: str
	label: LiarLabel
	statement: str
	subject: str = ""
	speaker: str = ""
	job_title: str = ""
	state: str = ""
	party: str = ""
	barely_true_count: int = 0
	false_count: int = 0
	half_true_count: int = 0
	mostly_true_count: int = 0
	pants_fire_count: int = 0
	context: str = ""

	@property
	def binary_label(self) -> str:
	"""Get binary label (Fake/Real)."""
	return self.label.to_binary()

	@property
	def ternary_label(self) -> str:
	"""Get ternary label (False/Mixed/True)."""
	return self.label.to_ternary()

	@property
	def numeric_label(self) -> int:
	"""Get numeric label (0-5)."""
	return self.label.value

	@property
	def speaker_credit_history(self) -> Dict[str, int]:
	"""Get speaker's historical credibility as a dictionary."""
	return {
	'barely_true': self.barely_true_count,
	'false': self.false_count,
	'half_true': self.half_true_count,
	'mostly_true': self.mostly_true_count,
	'pants_fire': self.pants_fire_count
	}

	def to_dict(self) -> Dict:
	"""Convert to dictionary for JSON serialization."""
	return {
	'id': self.id,
	'label': self.label.name,
	'binary_label': self.binary_label,
	'ternary_label': self.ternary_label,
	'statement': self.statement,
	'subject': self.subject,
	'speaker': self.speaker,
	'job_title': self.job_title,
	'state': self.state,
	'party': self.party,
	'context': self.context,
	'speaker_credit_history': self.speaker_credit_history
	}


	class LIARDataset:
	"""
	Loader for LIAR benchmark dataset.

	The LIAR dataset contains 12,836 short statements labeled with
	six fine-grained truthfulness ratings from PolitiFact.

	Files expected:
	- train.tsv (10,269 statements)
	- valid.tsv (1,284 statements)
	- test.tsv (1,283 statements)

	Usage:
	dataset = LIARDataset("/path/to/liar_dataset")
	train_data = dataset.load_split("train")

	for statement in train_data:
	print(f"{statement.statement} -> {statement.label.name}")
	"""

	# TSV column indices
	COL_ID = 0
	COL_LABEL = 1
	COL_STATEMENT = 2
	COL_SUBJECT = 3
	COL_SPEAKER = 4
	COL_JOB = 5
	COL_STATE = 6
	COL_PARTY = 7
	COL_BARELY_TRUE = 8
	COL_FALSE = 9
	COL_HALF_TRUE = 10
	COL_MOSTLY_TRUE = 11
	COL_PANTS_FIRE = 12
	COL_CONTEXT = 13

	def __init__(self, data_dir: Optional[str] = None):
	"""
	Initialize LIAR dataset loader.

	Args:
	data_dir: Path to directory containing train.tsv, valid.tsv, test.tsv
	If None, uses default location: syscred/datasets/liar/
	"""
	if data_dir:
	self.data_dir = Path(data_dir)
	else:
	# Default: relative to this file
	self.data_dir = Path(__file__).parent / "datasets" / "liar"

	self._cache: Dict[str, List[LiarStatement]] = {}

	print(f"[LIAR] Dataset directory: {self.data_dir}")

	def _parse_int_safe(self, value: str) -> int:
	"""Safely parse int, returning 0 on failure."""
	try:
	return int(value.strip())
	except (ValueError, AttributeError):
	return 0

	def _parse_row(self, row: List[str]) -> Optional[LiarStatement]:
	"""Parse a single TSV row into a LiarStatement."""
	try:
	# Ensure we have enough columns
	if len(row) < 3:
	return None

	# Pad row if needed
	while len(row) < 14:
	row.append("")

	return LiarStatement(
	id=row[self.COL_ID].strip(),
	label=LiarLabel.from_string(row[self.COL_LABEL]),
	statement=row[self.COL_STATEMENT].strip(),
	subject=row[self.COL_SUBJECT].strip() if len(row) > self.COL_SUBJECT else "",
	speaker=row[self.COL_SPEAKER].strip() if len(row) > self.COL_SPEAKER else "",
	job_title=row[self.COL_JOB].strip() if len(row) > self.COL_JOB else "",
	state=row[self.COL_STATE].strip() if len(row) > self.COL_STATE else "",
	party=row[self.COL_PARTY].strip() if len(row) > self.COL_PARTY else "",
	barely_true_count=self._parse_int_safe(row[self.COL_BARELY_TRUE]) if len(row) > self.COL_BARELY_TRUE else 0,
	false_count=self._parse_int_safe(row[self.COL_FALSE]) if len(row) > self.COL_FALSE else 0,
	half_true_count=self._parse_int_safe(row[self.COL_HALF_TRUE]) if len(row) > self.COL_HALF_TRUE else 0,
	mostly_true_count=self._parse_int_safe(row[self.COL_MOSTLY_TRUE]) if len(row) > self.COL_MOSTLY_TRUE else 0,
	pants_fire_count=self._parse_int_safe(row[self.COL_PANTS_FIRE]) if len(row) > self.COL_PANTS_FIRE else 0,
	context=row[self.COL_CONTEXT].strip() if len(row) > self.COL_CONTEXT else ""
	)
	except Exception as e:
	print(f"[LIAR] Parse error: {e}")
	return None

	def load_split(self, split: str = "test") -> List[LiarStatement]:
	"""
	Load a dataset split.

	Args:
	split: One of 'train', 'valid', 'test'

	Returns:
	List of LiarStatement objects
	"""
	if split in self._cache:
	return self._cache[split]

	file_path = self.data_dir / f"{split}.tsv"

	if not file_path.exists():
	raise FileNotFoundError(
	f"LIAR dataset file not found: {file_path}\n"
	f"Download from: https://www.cs.ucsb.edu/~william/data/liar_dataset.zip"
	)

	statements = []

	with open(file_path, 'r', encoding='utf-8') as f:
	reader = csv.reader(f, delimiter='\t')
	for row in reader:
	stmt = self._parse_row(row)
	if stmt:
	statements.append(stmt)

	self._cache[split] = statements
	print(f"[LIAR] Loaded {len(statements)} statements from {split}.tsv")

	return statements

	def get_statements(self, split: str = "test") -> List[str]:
	"""Get just the statement texts."""
	return [s.statement for s in self.load_split(split)]

	def get_labels(self, split: str = "test", label_type: str = "binary") -> List[str]:
	"""
	Get labels for a split.

	Args:
	split: Dataset split
	label_type: 'binary' (Fake/Real), 'ternary' (False/Mixed/True),
	'six' (original 6-way), 'numeric' (0-5)
	"""
	statements = self.load_split(split)

	if label_type == "binary":
	return [s.binary_label for s in statements]
	elif label_type == "ternary":
	return [s.ternary_label for s in statements]
	elif label_type == "numeric":
	return [s.numeric_label for s in statements]
	else: # six / original
	return [s.label.name for s in statements]

	def get_label_distribution(self, split: str = "test") -> Dict[str, int]:
	"""Get count of each label in a split."""
	statements = self.load_split(split)
	distribution = {}

	for stmt in statements:
	label = stmt.label.name
	distribution[label] = distribution.get(label, 0) + 1

	return distribution

	def get_sample(self, split: str = "test", n: int = 10) -> List[LiarStatement]:
	"""Get a random sample of statements."""
	import random
	statements = self.load_split(split)
	return random.sample(statements, min(n, len(statements)))

	def get_by_party(self, split: str, party: str) -> List[LiarStatement]:
	"""Filter statements by political party."""
	statements = self.load_split(split)
	return [s for s in statements if s.party.lower() == party.lower()]

	def get_by_speaker(self, split: str, speaker: str) -> List[LiarStatement]:
	"""Filter statements by speaker name."""
	statements = self.load_split(split)
	return [s for s in statements if speaker.lower() in s.speaker.lower()]

	def iter_batches(self, split: str, batch_size: int = 32):
	"""Iterate over statements in batches."""
	statements = self.load_split(split)

	for i in range(0, len(statements), batch_size):
	yield statements[i:i + batch_size]

	def stats(self) -> Dict[str, Any]:
	"""Get dataset statistics."""
	stats = {}

	for split in ['train', 'valid', 'test']:
	try:
	statements = self.load_split(split)
	stats[split] = {
	'count': len(statements),
	'label_distribution': self.get_label_distribution(split),
	'unique_speakers': len(set(s.speaker for s in statements)),
	'unique_parties': list(set(s.party for s in statements if s.party))
	}
	except FileNotFoundError:
	stats[split] = {'error': 'File not found'}

	return stats


	# Convenience function
	def load_liar(split: str = "test", data_dir: Optional[str] = None) -> List[LiarStatement]:
	"""Quick loader for LIAR dataset."""
	dataset = LIARDataset(data_dir)
	return dataset.load_split(split)


	if __name__ == "__main__":
	print("=" * 60)
	print("LIAR Dataset Loader - Test")
	print("=" * 60)

	# Test with default path
	try:
	dataset = LIARDataset()

	print("\n📊 Dataset Statistics:")
	stats = dataset.stats()
	for split, info in stats.items():
	print(f"\n{split.upper()}:")
	if 'error' in info:
	print(f" ❌ {info['error']}")
	else:
	print(f" Total: {info['count']}")
	print(f" Speakers: {info['unique_speakers']}")
	print(f" Parties: {info['unique_parties']}")
	print(f" Labels: {info['label_distribution']}")

	except Exception as e:
	print(f"\n❌ Error: {e}")
	print("\nTo use this module, download the LIAR dataset:")
	print(" wget https://www.cs.ucsb.edu/~william/data/liar_dataset.zip")
	print(" unzip liar_dataset.zip -d 02_Code/syscred/datasets/liar/")